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Donald House 9/17/09 Artist’s slides by Lynette House. Color Principles for Computer Graphics. Physics of Color. Physiology of Color. Physiology of Color. 3 cone response curves Luminance efficiency. Artist’s Color. Hue Saturation Value. Value. Luminance Dark to Light
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Donald House 9/17/09 Artist’s slides by Lynette House Color Principles for Computer Graphics
Physiology of Color 3 cone response curves Luminance efficiency
Artist’s Color Hue Saturation Value
Value • Luminance • Dark to Light • Value range • High key • Middle key • Low key
Hue - Paint Mixing • Physical mix of opaque paints • Primary: RYB • Secondary: OGV • Neutral: R + Y + B
Hue - Ink Mixing • Subtractive mix of transparent inks • Primary: CMY • Secondary: RGB • ~Black: C + M + Y • Actually use CMYKto get true black
Hue - Ink Mixing Assumption: ink printed on pure white paper CMY = White – RGB: C = 1 – R, M = 1 – G, Y = 1 – B CMYK from CMY (K is black ink): K = min(C, M, Y) C = C – K, M = M – K, Y = Y - K
Hue - Light Mixing • Additive mix of colored lights • Primary: RGB • Secondary: CMY • White = R + G + B • Show demonstration of optical mixing
Saturation • Purity of color
Perception of Color In the end, color is a perceptual phenomenon
Color Constancy Perceived color is highly context dependent Allowing color recognition with variable lighting conditions
Color Constancy Perceived color is highly context dependent Allowing color recognition with variable lighting conditions
RGB Color Wheel • Warm/Cool • Complements • Split Complement • Analogous • Show RGB Cube
HSV Color Model HSV is a projection of the RGB space RGB cube HSV top view HSV cone
HSV Color Model Hue, an angular measure (0 … 360)
HSV Color Model Saturation, a fractional measure (0.0 … 1.0)
HSV Color Model Value, a fractional measure (0.0 … 1.0)
CIE 1931 Study Color Matching Experiment
CIE Color Matching Functions CIE RGB Matching Functions CIE XYZ Matching Functions
RGB from Spectrum RGB = x d
XYZ from Spectrum XYZ = x d
CIE xyY from CIE XYZ • CIE xyY color model is used to catalog colors: • x = X / (X + Y + Z) • y = Y / (X + Y + Z) • Y = luminance
CIE Lu*v* and Lab Perceptually Uniform Spaces Lu*v* rescales xyYLab color opponents